U.S. patent application number 15/766237 was filed with the patent office on 2018-10-18 for track, travel path forming unit, track laying method, and track maintenance method.
The applicant listed for this patent is Mitsubishi Heavy Industries Engineering, Ltd.. Invention is credited to Toshiaki ASANOMA, Akihisa KAWAUCHI, Hiroyuki KONO, Yasuyuki MUKAI, Yoshinobu MURAKAMI, Koji UCHIDA, Yukihide YANOBU.
Application Number | 20180298562 15/766237 |
Document ID | / |
Family ID | 58487909 |
Filed Date | 2018-10-18 |
United States Patent
Application |
20180298562 |
Kind Code |
A1 |
ASANOMA; Toshiaki ; et
al. |
October 18, 2018 |
TRACK, TRAVEL PATH FORMING UNIT, TRACK LAYING METHOD, AND TRACK
MAINTENANCE METHOD
Abstract
A track includes a travel path including a travel face with
which travel wheels of a vehicle come into contact while rolling.
The travel path includes a plurality of travel path forming units
that are arranged to be adjacent to each other in a travel
direction of the vehicle and of which each includes a unit travel
face forming part of the travel face and a positioning unit that
fixes a relative position between travel path forming units
adjacent to each other.
Inventors: |
ASANOMA; Toshiaki; (Tokyo,
JP) ; YANOBU; Yukihide; (Tokyo, JP) ; KONO;
Hiroyuki; (Tokyo, JP) ; UCHIDA; Koji; (Tokyo,
JP) ; KAWAUCHI; Akihisa; (Tokyo, JP) ;
MURAKAMI; Yoshinobu; (Tokyo, JP) ; MUKAI;
Yasuyuki; (Tokyo, JP) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Mitsubishi Heavy Industries Engineering, Ltd. |
Kanagawa |
|
JP |
|
|
Family ID: |
58487909 |
Appl. No.: |
15/766237 |
Filed: |
October 7, 2016 |
PCT Filed: |
October 7, 2016 |
PCT NO: |
PCT/JP2016/079932 |
371 Date: |
April 5, 2018 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
E01C 9/02 20130101; E01B
9/04 20130101; E01B 25/04 20130101; E01B 25/28 20130101 |
International
Class: |
E01B 25/28 20060101
E01B025/28; E01B 25/04 20060101 E01B025/04; E01B 9/04 20060101
E01B009/04 |
Foreign Application Data
Date |
Code |
Application Number |
Oct 8, 2015 |
JP |
2015-200196 |
Claims
1. A track comprising a travel path including a travel face with
which travel wheels of a vehicle come into contact while rolling,
wherein the travel path includes: a plurality of travel path
forming units that are arranged to be adjacent to each other in a
travel direction of the vehicle and of which each includes a unit
travel face forming part of the travel face; and a positioning unit
that fixes a relative position between the travel path forming
units adjacent to each other.
2. The track according to claim 1, wherein each travel path forming
unit includes an inclined face that is formed to be inclined with
respect to the travel direction at an end face opposite to an end
face of the other adjacent travel path forming unit.
3. The track according to claim 2, wherein each travel path forming
unit includes, as the inclined face, a first inclined face that
faces one side in the travel direction and a second inclined face
that is inclined in a direction other than that of the first
inclined face with respect to the travel direction and faces the
other side in the travel direction.
4. The track according to claim 3, wherein the travel path includes
a first travel path forming unit and a second travel path forming
unit which are alternately arranged in the travel direction as the
travel path forming units, and wherein the first inclined face of
the first travel path forming unit and the first inclined face of
the second travel path forming unit are inclined in different
directions with respect to the travel direction.
5. The track according to claim 4, wherein a length in the travel
direction of the second travel path forming unit is larger than a
length in the travel direction of the first travel path forming
unit.
6. The track according to claim 1, wherein each travel path forming
unit includes: a first plate with which only the travel wheel on
one side in a width direction of the vehicle comes in contact; and
a second plate that is disposed separated from the first plate in
the width direction and with which only the travel wheel on the
other side in the width direction comes in contact.
7. The track according to claim 1, wherein the travel path includes
guide posts to which a guide rail that guides the vehicle is
attached, and wherein each guide post is fixed to the corresponding
travel path forming unit and extends in a direction crossing the
unit travel face.
8. The track according to claim 7, wherein the travel path includes
support members of which each protrudes outward in the width
direction from an end face of the corresponding travel path forming
unit crossing the corresponding unit travel face and facing the
width direction of the vehicle and to which the corresponding guide
posts are fixed.
9. The track according to claim 1, wherein the travel path forming
units are arranged directly on ballast installed on a road bed.
10. The track according to claim 1, further comprising: a crosstie
that is embedded in ballast; and a plurality of rails that are
installed on the crosstie and are arranged separated from each
other in the width direction of the vehicle, wherein the travel
path forming units are arranged such that the unit travel faces are
provided on the rails.
11. A travel path forming unit that forms a travel path including a
travel face with which travel wheels of a vehicle come in contact
while rolling by arranging a plurality of travel path forming units
to be adjacent to each other in a travel direction of the vehicle,
the travel path forming unit comprising: a unit travel face that
forms part of the travel face.
12. The travel path forming unit according to claim 11, further
comprising a positioning unit that fixes a position relative to the
other adjacent travel path forming unit.
13. The travel path forming unit according to claim 11, further
comprising an end face that crosses the unit travel face and
opposes an end face of the other adjacent travel path forming unit,
wherein the end face includes an inclined face that is formed to be
inclined with respect to the travel direction.
14. The travel path forming unit according to claim 13, further
comprising, as the inclined face, a first inclined face that faces
one side in the travel direction and a second inclined face that is
inclined in a direction other than that of the first inclined face
with respect to the travel direction and faces the other side in
the travel direction.
15. The travel path forming unit according to claim 11, further
comprising: a first plate with which only the travel wheel on one
side in a width direction of the vehicle comes in contact; and a
second plate that is disposed separated from the first plate in the
width direction and with which only the travel wheel on the other
side in the width direction comes in contact.
16. The travel path forming unit according to claim 11, further
comprising a guide post to which a guide rail that guides the
vehicle is attached and that extends in a direction crossing the
unit travel face.
17. The travel path forming unit according to claim 16, further
comprising a support member that protrudes outward in the width
direction from an end face crossing the unit travel face and facing
the width direction of the vehicle and to which the guide post is
fixed.
18. A method of laying a track including a travel path that
includes a travel face with which travel wheels of a vehicle come
in contact while rolling, the method comprising: an arrangement
step of arranging a plurality of travel path forming units, each of
which includes a unit travel face forming part of the travel face,
in a travel direction of the vehicle; a position adjusting step of
connecting the travel path forming units adjacent to each other
using a positioning unit that fixes a relative position between the
travel path forming units adjacent to each other and adjusting
slopes of the plurality of unit travel faces with respect to a road
bed together; and a travel path forming unit fixing step of fixing
positions of the travel path forming units relative to the road
bed.
19. The method of laying a track according to claim 18, wherein the
arrangement step includes arranging each travel path forming unit
including an inclined face that is formed to be inclined with
respect to the travel direction at an end face opposite to an end
face of the other adjacent travel path forming unit.
20. The method of laying a track according to claim 18, wherein the
arrangement step includes: a first arrangement step of arranging a
plurality of first travel path forming units, each of which
includes a first inclined face that faces one side in the travel
direction and a second inclined face that is inclined in a
direction other than that of the first inclined face with respect
to the travel direction and faces the other side in the travel
direction, at intervals in the travel direction; and a second
arrangement step of arranging a plurality of second travel path
forming units, each of which includes a first inclined face that is
inclined in a direction other than that of the first inclined face
of the first travel path forming unit with respect to the travel
direction and that faces one side in the travel direction, between
two of the first travel path forming units adjacent to each other
in the travel direction.
21. The method of laying a track according to claim 18, wherein the
arrangement step includes arranging the travel path forming units
of which each includes a guide post to which a guide rail guiding
the vehicle is attached and that extends in a direction crossing
the unit travel face, and wherein the position adjusting step
includes a guide rail fixing step of fixing the guide rail to the
plurality of guide posts.
22. The method of laying a track according to claim 18, wherein the
position adjusting step includes a travel path forming unit lifting
step of lifting the travel path forming units from the road bed,
and wherein the travel path forming unit fixing step includes
loading ballast between the lifted travel path forming units and
the road bed and fixing positions of the travel path forming units
relative to the road bed.
23. The method of laying a track according to claim 18, wherein the
arrangement step includes arranging the travel path forming units
on a plurality of rails that are installed on a crosstie embedded
in ballast and that are arranged to be separated from each other in
the width direction of the vehicle.
24. A method of maintaining a track including a travel path
including a travel face with which travel wheels of a vehicle come
into contact while rolling, the travel path including a plurality
of travel path forming units that are arranged to be adjacent to
each other in a travel direction of the vehicle and of which each
includes a unit travel face forming part of the travel face, and a
positioning unit that fixes a relative position between the travel
path forming units adjacent to each other, wherein only a travel
path forming unit corresponding to a travel face of which a
position is partially offset is replaced.
Description
TECHNICAL FIELD
[0001] The invention relates to a track, a travel path forming
unit, a track laying method, and a track maintenance method.
[0002] Priority is claimed on Japanese Patent Application No.
2015-200196, filed Oct. 8, 2015, the content of which is
incorporated herein by reference.
BACKGROUND ART
[0003] As a new transportation system which is a new transportation
means other than buses and railways, a track transportation system
in which a vehicle travels on a track using travel wheels including
a rubber tire or the like is known. Such a track transportation
system is generally referred to as a new transportation system or
an automated people mover (APM).
[0004] A track on which such a type of vehicle travels includes a
travel path on which the travel wheels formed of rubber roll and
guide rails serving as a guide track disposed along the travel
path. The vehicle includes guide wheels in addition to the travel
wheels. By the guide wheels coming into contact with the guide
rails, a travel direction of the vehicle is regulated.
[0005] When a track of a track transportation system is disposed on
soft ground, there is a likelihood that track irregularity such as
distortion of a travel path will occur due to variation in road bed
conditions such as ground subsidence. Accordingly, in order to
cause a vehicle to travel stably, it is necessary to curb
occurrence of track irregularity. Therefore, when a track of a
track transportation system is laid, the track may be laid, for
example, after treatment such as ground modification or road bed
reinforcement has been carried out in order to curb variation in
road bed conditions.
[0006] On the other hand, in a railroad in which a train travels on
iron rails using iron wheels, a track including rails is laid by
employing a ballast track for soft ground. In a ballast track,
positions of the rails can be adjusted by adding ballast between
the rails and the ground bed even when ground subsidence occurs.
That is, in a ballast track, it is possible to adjust the positions
of the rails to repair track irregularity by partial maintenance
such as addition of ballast. Accordingly, in a ballast track, it is
possible to decrease initial costs for laying the track in
comparison with a case in which the ground itself is
reinforced.
[0007] In railroads, a slab track in which a base for installing
iron rails is formed by lining up a plurality of plate-shaped
members formed of concrete may be used instead of a ballast track.
For example, in a slab track described in Patent Literature 1, a
slab track is installed on ballast by filling a space between
neighboring track-slab panels with concrete. In such a slab track,
fluidic grout materials such as cement pastes, cement admixtures,
or resin materials are injected into the ballast. Accordingly, in
the slab track described in Patent Literature 1, the ballast itself
is reinforced by filling voids in the ballast.
CITATION LIST
Patent Literature
[0008] [Patent Literature 1]
[0009] Japanese Unexamined Patent Application, First Publication
No. H02-272101
SUMMARY OF INVENTION
Technical Problem
[0010] However, in the above-mentioned slab track, the ballast
itself is reinforced. Accordingly, when ground subsidence occurs, a
gap may be formed between the ballast and a track-slab panel and
there is a likelihood that the track-slab panel formed of concrete
will splinter. In the slab track, the track-slab panels are fixed
to each other by filling a space between neighboring track-slab
panels with concrete. Accordingly, in the slab track, it is
difficult to adjust the positions of the rails by performing
partial maintenance.
[0011] In a track of a track transportation system, travel wheels
come in direct contact with a travel path without rails being
interposed therebetween unlike a vehicle using iron wheels.
Accordingly, when ground subsidence occurs and a road surface is
partially distorted, there is a likelihood that an influence on
travel will be greater than that in a railroad using rails.
Accordingly, there is demand for formation of a travel path on
which travel wheels can travel and in which maintenance thereof is
easy.
[0012] The invention provides a track, a travel path forming unit,
a track laying method, and a track maintenance method that can
enable formation of a travel path on which travel wheels can travel
directly and which can be maintained easily.
Solution to Problem
[0013] In order to achieve the above-mentioned object, the
invention provides the following means.
[0014] According to a first aspect of the invention, there is
provided a track including a travel path including a travel face
with which travel wheels of a vehicle come into contact while
rolling, wherein the travel path includes: a plurality of travel
path forming units that are arranged to be adjacent to each other
in a travel direction of the vehicle and of which each includes a
unit travel face forming part of the travel face; and a positioning
unit that fixes a relative position between the travel path forming
units adjacent to each other.
[0015] According to this configuration, since the relative
positions between the plurality of travel path forming units are
fixed by the positioning units, it is possible to form the travel
face using a plurality of unit travel faces. Accordingly, even when
ground subsidence occurs in part of a road bed, it is possible to
partially adjust the position of the travel face relative to the
road bed by replacing only the travel path forming unit
corresponding to the position at which ground subsidence has
occurred or adjusting the position. That is, it is possible to
simply perform maintenance of the travel path at low costs in a
short time.
[0016] According to a second aspect of the invention, in the track
according to the first aspect, each travel path forming unit may
include an inclined face that is formed to be inclined with respect
to the travel direction at an end face opposite to an end face of
another adjacent travel path forming unit.
[0017] According to this configuration, a boundary between
neighboring travel path forming units can be inclined with respect
to the travel direction. That is, joints between the travel path
forming units can be inclined with respect to a direction in which
the travel wheels enter the unit travel faces. Accordingly, it is
possible to curb noise or rattling when the vehicle travels on the
joints between neighboring travel path forming units.
[0018] According to a third aspect of the invention, in the track
according to the second aspect, each travel path forming unit may
include, as the inclined face, a first inclined face that faces one
side in the travel direction and a second inclined face that is
inclined in a direction other than that of the first inclined face
with respect to the travel direction and faces the other side in
the travel direction.
[0019] According to this configuration, since the angles of the
first inclined face and the second inclined face are different from
each other, it is possible to make conditions irregular when the
travel wheels pass through the joints between the travel path
forming units in cases in which the travel wheels enter or leave
the travel path forming units. Accordingly, it is possible to
further curb noise or rattling when the vehicle travels on the
joints between neighboring travel path forming units.
[0020] According to a fourth aspect of the invention, in the track
according to the third aspect, the travel path may include a first
travel path forming unit and a second travel path forming unit
which are alternately arranged in the travel direction as the
travel path forming units, and the first inclined face of the first
travel path forming unit and the first inclined face of the second
travel path forming unit may be inclined in different directions
with respect to the travel direction.
[0021] According to this configuration, simply by arranging the
first travel path forming unit and the second travel path forming
unit having the inclined faces of different angles on one side and
the other side in the travel direction, it is possible to curb an
increase in a gap between neighboring travel path forming units and
to form a curved travel path such as a curved section.
[0022] According to a fifth aspect of the invention, in the track
according to the fourth aspect, a length in the travel direction of
the second travel path forming unit may be larger than a length in
the travel direction of the first travel path forming unit.
[0023] According to this configuration, the number of travel path
forming units used in a straight section can be decreased when
forming the travel path. Accordingly, it is possible to reduce
manufacturing costs at the time of laying a track.
[0024] According to a sixth aspect of the invention, in the track
according to any one of the first to fifth aspects, each travel
path forming unit may include: a first plate with which only a
travel wheel on one side in a width direction of the vehicle comes
in contact; and a second plate that is disposed separated from the
first plate in the width direction and with which only the travel
wheel on the other side in the width direction comes in
contact.
[0025] According to this configuration, each travel path forming
unit includes two members such as the first plate and the second
plate which are separated from each other in the width direction.
Accordingly, the travel face on one side in the width direction and
the travel face on the other side in the width direction can be
formed of different members. Accordingly, it is not necessary to
integrally form an area between the travel faces which are
separated in the width direction from each other and it is possible
to decrease manufacturing costs of the travel path forming
units.
[0026] According to a seventh aspect of the invention, in the track
according to any one of the first to sixth aspects, the travel path
may include guide posts to which a guide rail that guides the
vehicle is attached, and each guide post may be fixed to the
corresponding travel path forming unit and extend in a direction
crossing the unit travel face.
[0027] According to this configuration, a plurality of travel path
forming units can be fixed to the guide rails using the guide
posts. Accordingly, simply by adjusting the positions of the guide
rails relative to the road bed, it is possible to adjust the
positions of the plurality of unit travel faces forming the travel
face relative to the road bed. That is, it is possible to adjust
the positions of a plurality of unit travel faces together without
individually adjusting the positions of the plurality of travel
path forming units including the unit travel face relative to the
road bed. Accordingly, it is possible to form a travel face
extending smoothly in the travel direction with respect to the road
bed.
[0028] According to an eighth aspect of the invention, in the track
according to the seventh aspect, the travel path may include
support members of which each protrudes outward in the width
direction from an end face of the corresponding travel path forming
unit crossing the corresponding unit travel face and facing the
width direction of the vehicle and to which the corresponding guide
posts are fixed.
[0029] According to this configuration, it is not necessary to
increase the size of each travel path forming unit in the width
direction of the vehicle in order to install the guide posts.
Accordingly, it is possible to reduce manufacturing costs of the
travel path forming units.
[0030] According to a ninth aspect of the invention, in the track
according to any one of the first to eighth aspects, the travel
path forming units may be arranged directly on ballast installed on
a road bed.
[0031] According to this configuration, by disposing the ballast
between the road bed and the travel path, it is possible to adjust
the travel path itself and to adjust the position of the travel
face by adding the ballast even when the road bed is offset due to
ground subsidence or the like. Accordingly, it is possible to
further reduce maintenance costs for repairing distortion of the
travel face or the like.
[0032] According to a tenth aspect of the invention, the track
according to any one of the first to eighth aspects may further
include: a crosstie that is embedded in ballast; and a plurality of
rails that are installed on the crosstie and are arranged separated
in the width direction of the vehicle from each other, and the
travel path forming units may be arranged such that the unit travel
faces are provided on the rails.
[0033] According to this configuration, the travel face can be
formed using the rails. That is, the travel face can be formed on
the rails of which the slopes with respect to the road bed have
been adjusted. Accordingly, it is possible to adjust the positions
of the plurality of unit travel faces together without individually
adjusting the positions of the plurality of travel path forming
units including the unit travel face with respect to the road bed.
Accordingly, it is possible to form a travel face extending
smoothly in the travel direction with respect to the road bed.
[0034] According to an eleventh aspect of the invention, there is
provided a travel path forming unit that forms a travel path
including a travel face with which travel wheels of a vehicle come
in contact while rolling by arranging a plurality of travel path
forming units to be adjacent to each other in a travel direction of
the vehicle, the travel path forming unit including a unit travel
face that forms part of the travel face and an end face that
crosses the unit travel face and faces another travel path forming
unit adjacent thereto, the end face including an inclined face that
is inclined with respect to the travel direction.
[0035] According to a twelfth aspect of the invention, the travel
path forming unit according to the eleventh aspect may further
include a positioning unit that fixes a position relative to
another adjacent travel path forming unit.
[0036] According to a thirteenth aspect of the invention, the
travel path forming unit according to the eleventh or twelfth
aspect may further include an end face that crosses the unit travel
face and opposes an end face of the other adjacent travel path
forming unit, and the end face may include an inclined face that is
formed to be inclined with respect to the travel direction.
[0037] According to a fourteenth aspect of the invention, the
travel path forming unit according to the thirteenth aspect may
further include, as the inclined face, a first inclined face that
faces one side in the travel direction and a second inclined face
that is inclined in a direction other than that of the first
inclined face with respect to the travel direction and faces the
other side in the travel direction.
[0038] According to a fifteenth aspect of the invention, the travel
path forming unit according to any one of the eleventh to
fourteenth aspects may further include: a first plate with which
only the travel wheel on one side in a width direction of the
vehicle comes in contact; and a second plate that is disposed
separated from the first plate in the width direction and with
which only the travel wheel on the other side in the width
direction comes in contact.
[0039] According to a sixteenth aspect of the invention, the travel
path forming unit according to any one of the eleventh to fifteenth
aspects may further include a guide post to which a guide rail that
guides the vehicle is attached and that extends in a direction
crossing the unit travel face.
[0040] According to a seventeenth aspect of the invention, the
travel path forming unit according to the sixteenth aspect may
further include a support member that protrudes outward in the
width direction from an end face crossing the unit travel face and
facing the width direction of the vehicle and to which the guide
post is fixed.
[0041] According to an eighteenth aspect of the invention, there is
provided a method of laying a track including a travel path that
includes a travel face with which travel wheels of a vehicle come
in contact while rolling, the method including: an arrangement step
of arranging a plurality of travel path forming units, each of
which includes a unit travel face forming part of the travel face,
in a travel direction of the vehicle; a position adjusting step of
connecting the travel path forming units adjacent to each other
using a positioning unit that fixes a relative position between the
travel path forming units adjacent to each other and adjusting
slopes of the plurality of unit travel faces with respect to a road
bed together; and a travel path forming unit fixing step of fixing
positions of the travel path forming units relative to the road
bed.
[0042] According to a nineteenth aspect of the invention, in the
method of laying a track according to the eighteenth aspect, the
arrangement step may include arranging each travel path forming
unit including an inclined face that is formed to be inclined with
respect to the travel direction at an end face opposes an end face
of the other adjacent travel path forming unit.
[0043] According to a twentieth aspect of the invention, in the
track laying method according to the eighteenth or nineteenth
aspect, the arrangement step may include: a first arrangement step
of arranging a plurality of first travel path forming units, each
of which includes a first inclined face that faces one side in the
travel direction and a second inclined face that is inclined in a
direction other than that of the first inclined face with respect
to the travel direction and faces the other side in the travel
direction, at intervals in the travel direction; and a second
arrangement step of arranging a plurality of second travel path
forming units, each of which includes a first inclined face that is
inclined in a direction other than that of the first inclined face
of the first travel path forming unit with respect to the travel
direction and that faces one side in the travel direction, between
two of the first travel path forming units adjacent to each other
in the travel direction.
[0044] According to a twenty-first aspect of the invention, in the
track laying method according to any one of the eighteenth to
twentieth aspects, the arrangement step may include arranging the
travel path forming units of which each includes a guide post to
which a guide rail guiding the vehicle is attached and that extends
in a direction crossing the unit travel face, and the position
adjusting step may include a guide rail fixing step of fixing the
guide rail to the plurality of guide posts.
[0045] According to a twenty-second aspect of the invention, in the
track laying method according to any one of the eighteenth to
twenty-first aspects, the position adjusting step may include a
travel path forming unit lifting step of lifting the travel path
forming units from the road bed, and the travel path forming unit
fixing step may include loading ballast between the lifted travel
path forming units and the road bed and fixing positions of the
travel path forming units relative to the road bed.
[0046] According to a twenty-third aspect of the invention, in the
track laying method according to any one of the eighteenth to
twenty-second aspects, the arrangement step may include arranging
the travel path forming units on a plurality of rails that are
installed on a crosstie embedded in ballast and that are arranged
to be separated from each other in the width direction of the
vehicle.
[0047] According to a twenty-fourth aspect of the invention, there
is provided a method of maintaining a track including a travel path
including a travel face with which travel wheels of a vehicle come
into contact while rolling, the travel path including a plurality
of travel path forming units that are arranged to be adjacent to
each other in a travel direction of the vehicle and of which each
includes a unit travel face forming part of the travel face, and a
positioning unit that fixes a relative position between the travel
path forming units adjacent to each other, wherein only a travel
path forming unit corresponding to a travel face of which a
position is partially offset is replaced.
Advantageous Effects of Invention
[0048] According to the invention, it is possible to form a travel
path on which travel wheels can travel directly and which can be
maintained easily by lining up a plurality of travel path forming
units.
BRIEF DESCRIPTION OF DRAWINGS
[0049] FIG. 1 is a sectional view illustrating a track and a
vehicle according to a first embodiment.
[0050] FIG. 2 is a top view illustrating a travel path according to
the first embodiment.
[0051] FIG. 3 is a perspective view illustrating a first travel
path forming unit according to the first embodiment.
[0052] FIG. 4 is a perspective view illustrating a second travel
path forming unit according to the first embodiment.
[0053] FIG. 5A is a top view illustrating a manner in which the
first travel path forming units are arranged in a track
constructing method according to the first embodiment when the
manner in which the first travel path forming units are arranged is
viewed from the upper side.
[0054] FIG. 5B is a sectional view illustrating a manner in which
one first travel path forming unit is arranged in the track
constructing method according to the first embodiment when the
manner in which the first travel path forming unit is arranged is
viewed from the front side in a travel direction.
[0055] FIG. 6 is a top view illustrating a manner in which second
travel path forming units are arranged in the track constructing
method according to the first embodiment.
[0056] FIG. 7 is a top view illustrating a state in which guide
rails are fixed to the first travel path forming units in the track
constructing method according to the first embodiment.
[0057] FIG. 8 is a sectional view illustrating a state in which the
guide rails are lifted from a road bed in the track constructing
method according to the first embodiment.
[0058] FIG. 9 is a top view illustrating a state in which guide
rails are fixed to the second travel path forming units in the
track constructing method according to the first embodiment.
[0059] FIG. 10 is a sectional view illustrating a state in which
positions of the first travel path forming units and the second
travel path forming units are fixed in the track constructing
method according to the first embodiment.
[0060] FIG. 11 is a sectional view illustrating a state in which
ballast has been loaded in the track constructing method according
to the first embodiment.
[0061] FIG. 12 is a perspective view illustrating a convex portion
according to a modified example of the first embodiment.
[0062] FIG. 13 is a perspective view illustrating a concave portion
according to the modified example of the first embodiment.
[0063] FIG. 14 is a top view illustrating a travel path according
to a second embodiment.
[0064] FIG. 15 is a top view illustrating a travel path according
to a modified example of the first embodiment and the second
embodiment.
[0065] FIG. 16 is a sectional view illustrating a track and a
vehicle according to a third embodiment. FIG. 17 is a top view
illustrating a travel path according to the third embodiment.
DESCRIPTION OF EMBODIMENTS
First Embodiment
[0066] Hereinafter, a track according to a first embodiment of the
invention will be described with reference to FIGS. 1 to 4.
[0067] A track 1 according to the first embodiment of the invention
is a track on which a guide rail type railroad vehicle travels
while steering travel wheels 120 with a reaction force applied from
guide rails 8 that guide the vehicle 100.
[0068] In the following description, a direction in which the
vehicle 100 travels is referred to as a travel direction Dr. A
width direction of the vehicle 100 which is perpendicular to the
travel direction Dr is simply referred to as a width direction Dw.
A direction which is perpendicular to the travel direction Dr and
the width direction Dw is referred to as a vertical direction Dv.
In this embodiment, the vertical direction Dv is a direction which
is perpendicular to a travel face 4 which will be described later
unlike a vertical direction in the precise meaning. In this
embodiment, one (a first) side in the width direction Dw with
respect to the center in the width direction Dw of the vehicle 100
is defined as a right side (the right side in FIG. 1), and the
other (a second) side in the width direction Dw is defined as a
left side (the left side in FIG. 1). In this embodiment, one (a
first) side in the travel direction Dr with respect to the vehicle
100 is defined as a front side (the lower side in FIG. 2), and the
other (a second) side in the travel direction Dr with respect to
the vehicle 100 is defined as a rear side (the upper side in FIG.
2).
[0069] The vehicle 100 (a guide rail type railroad vehicle)
traveling on the track 1 according to this embodiment is a vehicle
in a side guide rail type new transportation system as illustrated
in FIG. 1. The vehicle 100 includes a vehicle body 110, travel
wheels 120, and a guide device 130.
[0070] The vehicle body 110 includes a box-shaped structure in
outer shape having a cavity therein. A door, a window, or the like
which is not illustrated is provided in a side portion of the
vehicle body 110.
[0071] The travel wheels 120 are disposed on the bottom of the
vehicle body 110. The travel wheels 120 are provided on the lower
side of the vehicle body 110 in the vertical direction Dv. The
travel wheels 120 are provided on the right side and the left side
of the vehicle body 110 in the width direction Dw. The travel
wheels 120 are rotationally driven by a power unit by receiving
electric power from a trolley wire via a power collecting device.
The travel wheels 120 are not formed of a metal material, unlike
iron wheels, but are formed of, for example, a rubber material such
as rubber tires.
[0072] The guide device 130 guides the vehicle 100 in the target
travel direction Dr along guide rails 8 which will be described
later. The guide device 130 includes a guide frame 131 which is
disposed on the lower side of the vehicle body 110 and guide wheels
132 which are rotatably supported by the guide frame 131.
[0073] The guide wheels 132 are disposed outwards of the side
surfaces of the vehicle body 110. The guide wheels 132 are
supported in the guide frame 131 to be rotatable around a rotation
shaft extending in the vertical direction Dv. The guide wheels 132
are provided such that the position thereof in the vertical
direction Dv has substantially the same height as that of the guide
rails 8. Accordingly, when the vehicle 100 travels, the guide
wheels 132 rotate when coming into contact with the guide rails
8.
[0074] The track 1 extends along a predetermined route, and
straight sections and curved sections are mixed along the way if
necessary. The track 1 includes a pair of right and left travel
faces 4 with which the travel wheels 120 come in contact while
rolling. The travel faces 4 extend in the travel direction Dr. The
travel faces 4 in a pair are separated from each other in the width
direction Dw to correspond to the positions of the travel wheels
120 in the width direction Dw. In the track 1 according to this
embodiment, the travel faces 4 are provided on ballast 3 which is
piled on a road bed 2.
[0075] The track 1 includes ballast 3, a travel path 5, and guide
rails 8. The ballast 3 includes crushed stones or gravel laid on
the road bed 2. The travel path 5 forms the travel face 4 on the
road bed 2. The travel path 5 in this embodiment forms the travel
face 4 on the road bed 2 with the ballast 3 interposed
therebetween. As illustrated in FIG. 2, the travel path 5 includes
travel path forming units 50, positioning units 52, guide posts 53,
and support members 54.
[0076] The guide rails 8 regulate a direction in which the vehicle
100 travels. The guide rails 8 regulate the direction in which the
vehicle 100 travels using a reaction force which is generated by
contact with the guide wheels 132. The guide rails 8 are provided
on both sides of the track 1 in the width direction Dw such that
the travel faces 4 are interposed therebetween over the total
length of the track 1. The guide rails 8 extend to the same height
from the travel faces 4 in the travel direction Dr in which the
vehicle 100 travels. The length of the guide rails 8 in the travel
direction Dr is set to be larger than that of one travel path
forming unit 50. Accordingly, the guide rails 8 are arranged over a
plurality of travel path forming units 50.
[0077] In this embodiment, a plurality of travel path forming units
50 are arranged to be adjacent to each other in the travel
direction Dr of the vehicle 100, and each includes a unit travel
face 51a forming part of the travel face 4. Part of the travel path
forming unit 50 according to this embodiment includes a connection
member 55.
[0078] The travel path forming units 50 are disposed on the road
bed 2 with ballast 3 interposed therebetween. Each travel path
forming unit 50 includes a unit travel face 51a that can form part
of the travel face 4. The unit travel face 51a is formed in the
travel path forming unit 50 such that the travel path forming unit
50 faces the upper side in the vertical direction Dv when the
travel path forming unit 50 is disposed on the ballast 3.
[0079] In each travel path forming unit 50, end faces on both sides
in the travel direction Dr which cross the unit travel face 51a and
opposite to an end face of other adjacent travel path forming units
50 include an inclined face 51b. The inclined face 51b extends to
be perpendicular to the unit travel face 51a and is inclined with
respect to the travel direction Dr. That is, the travel face 4 is
formed by arranging a plurality of travel path forming units 50 in
parallel in the travel direction Dr and continuously arranging the
unit travel faces 51a in the travel direction Dr such that the
inclined faces 51b of the neighboring travel path forming units 50
are opposed to each other. In this embodiment, the travel path
forming units 50 are blocks formed of concrete.
[0080] As illustrated in FIG. 1, each travel path forming unit 50
includes a first plate 511 with which only the right travel wheel
120 on one side in the width direction Dw comes in contact and a
second plate 512 with which only the left travel wheel 120 on the
other side in the width direction Dw comes in contact.
[0081] In this embodiment, the first plate 511 is formed such that
end faces which cross the unit travel face 51a and the inclined
faces 51b and face the width direction Dw are parallel to the
travel direction Dr. The first plate 511 is a concrete block having
a trapezoidal shape in which the inclined faces 51b on both sides
in the travel direction Dr come closer to each other to the center
of the vehicle 100 in the width direction Dw when viewed in the
vertical direction Dv. That is, the unit travel face 51a of the
first plate 511 in this embodiment has a trapezoidal shape when
viewed in the vertical direction Dv.
[0082] The second plate 512 is disposed to be separated from the
first plate 511 in the width direction Dw. The second plate 512 in
this embodiment forms a symmetric shape along with the first plate
511 with respect to the center of the vehicle 100 in the width
direction Dw. The second plate 512 is a concrete block having a
trapezoidal shape in which the inclined faces 51b on both sides in
the travel direction Dr come closer to each other from the opposite
side of the first plate 511 to the center of the vehicle 100 in the
width direction Dw when viewed in the vertical direction Dv. That
is, the unit travel face 51a of the second plate 512 in this
embodiment has a trapezoidal shape when viewed in the vertical
direction Dv. The second plate 512 may be formed in the same shape
as the first plate 511 based on the symmetry as in this embodiment,
or may be formed in a shape or size different from the first plate
511.
[0083] The connection member 55 connects the first plate 511 and
the second plate 512. The connection member 55 in this embodiment
is part of the travel path forming unit 50 and is formed integrally
with the first plate 511 and the second plate 512. Specifically,
the connection member 55 in this embodiment connects the end faces
facing inward of the first plate 511 and the second plate 512 in
the width direction Dw. The connection member 55 connects the end
face of the first plate 511 crossing the unit travel face 51a and
facing the left side in the width direction Dw and the end face of
the second plate 512 crossing the unit travel face 51a and facing
the right side in the width direction Dw. The connection member 55
in this embodiment is formed of an H steel material.
[0084] A positioning unit 52 fixes a relative position between
neighboring travel path forming units 50. The positioning unit 52
in this embodiment detachably connects the travel path forming
units 50, that is, one travel path forming unit 50 and another
travel path forming unit 50 adjacent to the one travel path forming
unit 50. That is, the positioning unit 52 does not completely fix
the adjacent travel path forming units 50, but connects them in a
detachable state and fixes the external relative position
therebetween. The positioning unit 52 in this embodiment is part of
the travel path forming unit 50 and is provided in each of the
first plate 511 and the second plate 512. Specifically, the
positioning unit 52 in this embodiment is formed in the inclined
faces 51b. The positioning unit 52 includes a convex portion 521
and a concave portion 522.
[0085] As illustrated in FIG. 3, the convex portion 521 protrudes
in the travel direction Dr from the inclined face 51b. The convex
portion 521 in this embodiment extends in the width direction Dw to
form a semicircular sectional shape. The convex portion 521 is
formed at the center of the inclined face 51b in the vertical
direction Dv. That is, the convex portion 521 in this embodiment is
formed integrally with the travel path forming unit 50.
[0086] As illustrated in FIG. 4, the concave portion 522 is
recessed in the travel direction Dr from the inclined face 51b. The
concave portion 522 is formed in a size allowing the convex portion
521 to be inserted thereinto to correspond to the shape of the
convex portion 521. The concave portion 522 in this embodiment is
formed on the inclined face 51b of another travel path forming unit
50 which is adjacent in the travel direction Dr to the travel path
forming unit 50 in which the convex portion 521 is formed.
[0087] That is, the concave portion 522 is formed in the travel
path forming unit 50 other than the travel path forming unit 50 in
which the convex portion 521 is formed. The concave portion 522
extends in the width direction Dw to form a semicircular sectional
shape which is slightly larger than the convex portion 521. The
concave portion 522 is formed at the center in the vertical
direction Dw to have the same position in the vertical direction Dv
on the inclined face 51b as the convex portion 521.
[0088] As illustrated in FIG. 2, the guide posts 53 are formed such
that the guide rail 8 can be fixed thereto. The guide posts 53 are
fixed to the travel path forming units 50. Each guide post 53 in
this embodiment is part of the corresponding travel path forming
unit 50 and is formed integrally with the first plate 511 and the
second plate 512. Specifically, the guide posts 53 extend in a
direction crossing the unit travel face 51a. The guide posts 53 in
this embodiment extend perpendicularly to the unit travel face 51a.
The guide posts 53 in this embodiment are formed outside the travel
path forming unit 50 in the width direction Dw using a support
member 54. The guide rail 8 is fixed to the inside of the guide
post 53 in the width direction Dw. That is, the guide post 53 on
the right side in the width direction Dw is provided on the right
side in the width direction Dw from the first plate 511 and the
guide rail 8 is fixed to the left side in the width direction Dw
thereof. On the other hand, the guide post 53 on the left side in
the width direction Dw is provided on the left side in the width
direction Dw from the second plate 512, and the guide rail 8 is
fixed to the right side in the width direction Dw thereof. The
guide posts 53 in this embodiment are formed of the same H steel
material as the connection members 55.
[0089] The support members 54 protrude outward in the width
direction Dw from the end faces of the travel path forming unit 50
facing the width direction Dw crossing the unit travel face 51a.
The support members 54 have the guide posts 53 fixed thereto. The
support members 54 in this embodiment are part of the travel path
forming unit 50 and are formed integrally with the first plate 511
and the second plate 512. Specifically, the support members 54 in
this embodiment extend from the end faces of the travel path
forming unit 50 facing outward in the width direction. That is, the
support member 54 on the right side in the width direction Dw is
provided on the right side in the width direction Dw from the first
plate 511. In the support member 54 on the right side in the width
direction Dw, the guide post 53 is fixed to an end in the width
direction Dw which is not connected to the first plate 511. On the
other hand, the support member 54 on the left side in the width
direction Dw is provided on the left side in the width direction Dw
from the second plate 512. In the support member 54 on the left
side in the width direction Dw, the guide post 53 is fixed to an
end in the width direction Dw which is not connected to the second
plate 512. The support members 54 in this embodiment are formed of
the same H steel material as the connection members 55 or the guide
posts 53.
[0090] The travel path 5 in this embodiment includes a first travel
path forming unit 60 and a second travel path forming unit 70 which
are alternately arranged in the travel direction Dr as the travel
path forming unit 50.
[0091] As illustrated in FIG. 3, the first travel path forming unit
60 includes a (1A)-th plate 61 as the first plate 511. The first
travel path forming unit 60 includes a (2A)-th plate 62 as the
second plate 512. The first travel path forming unit 60 includes
the connection member 55. The guide post 53 and the support member
54 are connected to the first travel path forming unit 60. In the
first travel path forming unit 60 in this embodiment, the support
member 54 and the connection member 55 are formed of the same H
steel material to form a unified body. That is, in the first travel
path forming unit 60, an H steel material is provided to penetrate
the (1A)-th plate 61 and the (2A)-th plate 62 in the width
direction Dw. Accordingly, in the first travel path forming unit
60, the (1A)-th plate 61 and the (2A)-th plate 62 are
connected.
[0092] A (1A)-th formation face 61a is formed as the unit travel
face 51a in the (1A)-th plate 61. The (1A)-th formation face 61a is
a face which has a trapezoidal shape and faces the upper side in
the vertical direction Dv. The (1A)-th plate 61 includes a (1a1)-th
inclined face 61b (a first inclined face) that faces the front side
in the travel direction Dr and a (1a2)-th inclined face 61c (a
second inclined face) that faces the rear side in the travel
direction Dr as the inclined face 51b. The (1a1)-th inclined face
61b and the (1a2)-th inclined face 61c are inclined in different
directions with respect to the travel direction Dr. The (1a1)-th
inclined face 61b is inclined to face the left side which is inward
in the width direction Dw and the front side in the travel
direction Dr in the (1A)-th plate 61. The (1a2)-th inclined face
61c is inclined to face the left side in the width direction Dw and
the rear side in the travel direction Dr. In the (1A)-th plate 61,
the convex portion 521 is formed as the positioning unit 52 in the
(1a1)-th inclined face 61b and the (1a2)-th inclined face 61c.
[0093] A (2A)-th formation face 62a is formed as the unit travel
face 51a in the (2A)-th plate 62. The (2A)-th formation face 62a is
a face which has a trapezoidal shape with the same size as the
(1A)-th formation face 61a and faces the upper side in the vertical
direction Dv. That is, the (2A)-th plate 62 is formed to have the
same length in the travel direction Dr as the (1A)-th plate 61. The
(2A)-th plate 62 includes a (2a1)-th inclined face 62b (a first
inclined face) that faces the front side in the travel direction Dr
and a (2a2)-th inclined face 62c (a second inclined face) that
faces the rear side in the travel direction Dr as the inclined face
51b. The (2a1)-th inclined face 62b and the (2a2)-th inclined face
62c are inclined in different directions with respect to the travel
direction Dr. The (2a1)-th inclined face 62b is inclined to face
the right side which is inward in the width direction Dw and the
front side in the travel direction Dr in the (2A)-th plate 62. The
(2a1)-th inclined face 62b in this embodiment is formed to be
parallel to the (1a2)-th inclined face 61c. The (2a2)-th inclined
face 62c is inclined to face the right side in the width direction
Dw and the rear side in the travel direction Dr. The (2a2)-th
inclined face 62c in this embodiment is formed to be parallel to
the (1a1)-th inclined face 61b. In the (2A)-th plate 62, the convex
portion 521 is formed as the positioning unit 52 in the (2a1)-th
inclined face 62b and the (2a2)-th inclined face 62c.
[0094] The second travel path forming units 70 are arranged in
parallel in the travel direction Dr with respect to the first
travel path forming units 60. As illustrated in FIG. 4, each second
travel path forming unit 70 includes a (1B)-th plate 71 as the
first plate 511. The second travel path forming unit 70 includes a
(2B)-th plate 72 as the second plate 512. The guide posts 53 and
the support members 54 are connected to the second travel path
forming unit 70. The second travel path forming unit 70 in this
embodiment does not include the connection member 55 unlike the
first travel path forming unit 60. Accordingly, in the second
travel path forming unit 70, the (1B)-th plate 71 and the (2B)-th
plate 72 are independent from each other.
[0095] A (1B)-th formation face 71a is formed as the unit travel
face 51a in the (1B)-th plate 71. The (1B)-th formation face 71a in
this embodiment is a face which has a trapezoidal shape with the
same size as the (1A)-th formation face 61a and faces the upper
side in the vertical direction Dv. That is, the (1B)-th plate 71 is
formed to have the same length in the travel direction Dr as the
(1A)-th plate 61. The (1B)-th plate 71 includes a (1b1)-th inclined
face 71b (a first inclined face) that faces the front side in the
travel direction Dr and a (1b2)-th inclined face 71c (a second
inclined face) that faces the rear side in the travel direction Dr
as the inclined face 51b. The (1b1)-th inclined face 71b and the
(1b2)-th inclined face 71c are inclined in different directions
with respect to the travel direction Dr. The (1b1)-th inclined face
71b is inclined to face the right side which is outward in the
width direction Dw and the front side in the travel direction Dr in
the (1B)-th plate 71. Accordingly, the (1a1)-th inclined face 61b
and the (1b1)-th inclined face 71b are inclined in different
directions with respect to the travel direction Dr. The (1b1)-th
inclined face 71b is formed to be parallel to the (1a2)-th inclined
face 61c. The (1b2)-th inclined face 71c is inclined to face the
right side in the width direction Dw and the rear side in the
travel direction Dr. Accordingly, the (1a2)-th inclined face 61c
and the (1b2)-th inclined face 71c are inclined in different
directions with respect to the travel direction Dr. The (1b2)-th
inclined face 71c is formed to be parallel to the (1a1)-th inclined
face 61b. In the (1B)-th plate 71, the concave portion 522 is
formed as the positioning unit 52 in the (1b1)-th inclined face 71b
and the (1b2)-th inclined face 71c.
[0096] A (2B)-th formation face 72a is formed as the unit travel
face 51a in the (2B)-th plate 72. The (2B)-th formation face 72a is
a face which has a trapezoidal shape with the same size as the
(2A)-th formation face 62a and faces the upper side in the vertical
direction Dv. That is, the (2B)-th plate 72 is formed to have the
same length in the travel direction Dr as the (2A)-th plate 62. The
(2B)-th plate 72 includes a (2b1)-th inclined face 72b (a first
inclined face) that faces the front side in the travel direction Dr
and a (2b2)-th inclined face 72c (a second inclined face) that
faces the rear side in the travel direction Dr as the inclined face
51b. The (2b1)-th inclined face 72b and the (2b2)-th inclined face
72c are inclined in different directions with respect to the travel
direction Dr. The (2b1)-th inclined face 72b is inclined to face
the left side which is outward in the width direction Dw and the
front side in the travel direction Dr in the (2B)-th plate 72.
Accordingly, the (2a1)-th inclined face 62b and the (2b1)-th
inclined face 72b are inclined in different directions with respect
to the travel direction Dr. The (2b1)-th inclined face 72b in this
embodiment is formed to be parallel to the (2a2)-th inclined face
62c and the (1b2)-th inclined face 71c. The (2b2)-th inclined face
72c is inclined to face the right side in the width direction Dw
and the rear side in the travel direction Dr. Accordingly, the
(2a2)-th inclined face 62c and the (2b2)-th inclined face 72c are
inclined in different directions with respect to the travel
direction Dr. The (2b2)-th inclined face 72c in this embodiment is
formed to be parallel to the (2a1)-th inclined face 62b and the
(1b1)-th inclined face 71b. In the (2B)-th plate 72, the concave
portion 522 is formed as the positioning unit 52 in the (2b1)-th
inclined face 72b and the (2b2)-th inclined face 72c.
[0097] A track constructing method according to this embodiment
will be described below with reference to FIGS. 5 to 11. In the
track constructing method according to this embodiment, the track 1
for a guide rail type railroad vehicle that travels while turning
the travel wheels 120 with a reaction force from the guide rails 8
that guide the vehicle 100 are laid on the road bed 2 using the
travel path 5 and the guide rails 8. In the track constructing
method according to this embodiment, an example in which a curved
section is formed will be described, but a straight section is also
formed using the same steps. The track constructing method
according to this embodiment includes an arrangement step S10, a
position adjusting step S20, and a travel path forming unit fixing
step S30.
[0098] In the arrangement step S10, a plurality of travel path
forming units 50 are arranged in the travel direction Dr on the
road bed 2. The arrangement step S10 in this embodiment includes a
first arrangement step S11 of arranging a plurality of first travel
path forming units 60 and a second arrangement step S12 of
arranging a plurality of second travel path forming units 70.
[0099] In the first arrangement step S11, as illustrated in FIGS.
5A and 5B, a plurality of first travel path forming units 60 are
arranged to be separated from each other in the travel direction
Dr. In the first arrangement step S11, the first travel path
forming units 60 to which the guide posts 53 and the support
members 54 are fixed are arranged directly on the road bed 2
depending on the shape of the track 1 to be laid. In the first
arrangement step S11, a plurality of first travel path forming
units 60 are arranged at intervals in the travel direction Dr. In
the first arrangement step S11 in this embodiment, a plurality of
first travel path forming units 60 are arranged at intervals
greater than the length in the travel direction Dr of the second
travel path forming unit 70 in the travel direction Dr.
[0100] In the second arrangement step S12, as illustrated in FIG.
6, one second travel path forming unit 70 is arranged between two
first travel path forming units 60 in the travel direction Dr after
the first arrangement step S11. In each second travel path forming
unit 70 in this embodiment, the (1B)-th plate 71 and the (2B)-th
plate 72 are independent from each other. Accordingly, in the
second arrangement step S12, the (1B)-th plate 71 and the (2B)-th
plate 72 to which the guide post 53 and the support member 54 are
fixed are separately arranged. Specifically, in the second
arrangement step S12, the (1B)-th plate 71 is arranged between two
(1A)-th plates 61 which are arranged separated from each other in
the travel direction Dr. Accordingly, the (1B)-th plate 71 is
arranged with a slight gap from a pair of (1A)-th plates 61 in a
state in which the convex portion 521 is fitted to the concave
portion 522. In the second arrangement step S12, the (2B)-th plate
72 is arranged between two (2A)-th plates 62 which are arranged
separated in the travel direction Dr from each other. Accordingly,
the (2B)-th plate 72 is arranged with a slight gap from a pair of
(2A)-th plates 62 in a state in which the convex portion 521 is
fitted to the concave portion 522.
[0101] In the position adjusting step S20, the slopes of a
plurality of unit travel faces 51a with respect to the road bed 2
are adjusted together. The position adjusting step S20 in this
embodiment is performed after the arrangement step S10. In the
position adjusting step S20, the slopes of the guide rails 8 with
respect to the road bed 2 are adjusted. The position adjusting step
S20 in this embodiment includes a guide rail fixing step S21 and a
travel path forming unit lifting step S22.
[0102] In the guide rail fixing step S21, as illustrated in FIG. 7,
the guide rails 8 are fixed to a plurality of guide posts 53 after
the second arrangement step S12. In the guide rail fixing step S21,
positions in the travel direction Dr of the (1A)-th plate 61 and
the (2A)-th plate 62 of the first travel path forming unit 60 and
the (1B)-th plate 71 and the (2B)-th plate 72 of the second travel
path forming unit 70 are adjusted such that the positioning unit 52
of the second travel path forming unit 70 and the positioning unit
52 of the first travel path forming unit 60 are connected, and then
the guide rails 8 are fixed thereto. In the guide rail fixing step
S21 in this embodiment, the guide rails 8 are fixed to the guide
ports 53 of the first travel path forming unit 60. In the guide
rail fixing step S21 in this embodiment, the guide rails 8 are
temporarily fixed to the guide posts 53 of the second travel path
forming unit 70. That is, in the guide rail fixing step S21 in this
embodiment, only the positions of the first travel path forming
unit 60 and the guide rails 8 are completely fixed.
[0103] In the travel path forming unit lifting step S22, as
illustrated in FIG. 8, the travel path forming unit 50 is lifted
from the road bed 2. The travel path forming unit lifting step S22
in this embodiment is performed after the guide rail fixing step
S21. In the travel path forming unit lifting step S22, jack-up
members 91 having a height adjusting function is attached to the
support members 54 on both sides in the width direction Dw and the
travel path forming unit 50 is lifted in parallel to the road bed 2
for each support member 54. In this embodiment, the support member
54 of the first travel path forming unit 60 and the support member
54 of the second travel path forming unit 70 are lifted by the
jack-up members 91. The jack-up member 91 is a screw rod for
mounting adjustment that is attachable to and detachable from the
support member 54.
[0104] In the travel path forming unit lifting step S22, the
positions of the guide rails 8 are adjusted such that the guide
rails 8 are substantially parallel to the road bed 2 in a state in
which the first travel path forming unit 60 and the second travel
path forming unit 70 are lifted. In the travel path forming unit
lifting step S22, as illustrated in FIG. 9, the second travel path
forming unit 70 is fixed to the guide rails 8 after the positions
of the guide rails 8 are determined. Accordingly, the position of
the second travel path forming unit 70 is fixed in a state in which
the inclined face 51b is in contact with the first travel path
forming unit 60. In the travel path forming unit lifting step S22,
the guide posts 53 of the first travel path forming unit 60 are
fixed to the guide rails 8. Accordingly, the slopes of the unit
travel faces 51a of the first travel path forming units 60 with
respect to the road bed 2 are adjusted together.
[0105] In the travel path forming unit lifting step S22 in this
embodiment, the first travel path forming unit 60 and the second
travel path forming unit 70 are lifted together, but the invention
is not limited thereto. That is, since the first travel path
forming unit 60 and the second travel path forming unit 70 are
connected to each other by the positioning unit 52, only one of the
first travel path forming unit 60 and the second travel path
forming unit 70 may be lifted in the travel path forming unit
lifting step S22. At this time, in the travel path forming unit
lifting step S22, it is preferable that the support member 54 of
the first travel path forming unit 60 to which the guide rail 8 is
fixed be lifted.
[0106] The travel path forming unit fixing step S30 is performed
after the position adjusting step S20. In the travel path forming
unit fixing step S30, ballast 3 is loaded between the travel path
forming unit 50 and the road bed 2, and the position of the travel
path forming unit 50 relative to the road bed 2 is fixed. In the
travel path forming unit fixing step S30 in this embodiment, as
illustrated in FIG. 10, a fixing jig 92 is attached to the support
member 54 and the travel path forming unit 50 is fixed such that
the position such as a height of the travel path forming unit 50
relative to the road bed 2 does not move. Thereafter, in the travel
path forming unit fixing step S30, as illustrated in FIG. 11, the
ballast 3 is loaded and packed between the travel path forming unit
50 and the road bed 2. In the travel path forming unit fixing step
S30, the jack-up members 91 and the fixing jigs 92 are detached
from the support members 54 in a state in which the travel path
forming unit 50 cannot be moved by the ballast 3.
[0107] In the track 1 which has been constructed using the
above-mentioned track constructing method, a plurality of first
travel path forming units 60 and a plurality of second travel path
forming units 70 are alternately arranged in the travel direction
Dr. The relative position between the (1A)-th plate 61 and the
(1B)-th plate 71 and the relative position between the (2A)-th
plate 62 and the (2B)-th plate 72 are fixed by the positioning
units 52. Accordingly, the travel face 4 which is continuous in the
travel direction Dr can be formed on the right side in the width
direction Dw by the (1A)-th formation face 61a and the (1B)-th
formation face 71a. In addition, the travel face 4 which is
continuous in the travel direction Dr can be formed on the left
side in the width direction Dw by the (2A)-th formation face 62a
and the (2B)-th formation face 72a. Accordingly, even when ground
subsidence occurs in part of the road bed 2, it is possible to
partially adjust the position of the travel face 4 relative to the
road bed by replacing only the travel path forming unit 50
corresponding to the position at which the ground subsidence has
occurred or adjusting the position. That is, it is possible to
simply perform maintenance of the travel path 5 at low costs for a
short time. Accordingly, it is possible to form a track 1 in which
the travel wheels 120 can travel directly with easy
maintenance.
[0108] The positioning unit 52 includes the convex portion 521
formed in the (1A)-th plate 61 and the (2A)-th plate 62 and the
concave portions 522 formed in the (1B)-th plate 71 and the (2B)-th
plate 72. Accordingly, the positioning unit 52 that fixes the
relative position between the neighboring travel path forming units
50 can be formed with a detachable and simple configuration.
[0109] Since the travel path forming unit 50 includes the guide
posts 53, a plurality of first travel path forming units 60 and a
plurality of second travel path forming units 70 can be fixed to
the guide rails 8 using the guide posts 53. Accordingly, only by
adjusting the positions of the guide rails 8 relative to the road
bed 2, the positions of the (1A)-th formation face 61a and the
(2A)-th formation face 62a or the (1B)-th formation face 71a and
the (2B)-th formation face 72a constituting the travel face 4
relative to the road bed 2 can be adjusted. That is, it is possible
to adjust the positions of a plurality of unit travel faces 51a
together without adjusting the positions of a plurality of travel
path forming units 50 including the unit travel face 51a
constituting the travel face 4 relative to the road bed 2.
Accordingly, it is possible to form the travel face 4 that extends
smoothly in the travel direction Dr on the road bed 2.
[0110] The first travel path forming units 60 and the second travel
path forming units 70 include the support members 54 to which the
guide posts 53 are fixed. Since the support members 54 protrude
outward of the travel path forming units 50 in the width direction
Dw, the sizes of the (1A)-th plate 61 and the (2A)-th plate 62 and
the sizes of the (1B)-th plate 71 and the (2B)-th plate 72 do not
need to be large in the width direction Dw in order to install the
guide posts 53. Accordingly, it is possible to reduce the
manufacturing costs of the travel path forming unit 50.
[0111] The first travel path forming unit 60 includes two members
such as the (1A)-th plate 61 and the (2A)-th plate 62 which are
separated from each other in the width direction Dw. Similarly, the
second travel path forming unit 70 includes two members such as the
(1B)-th plate 71 and the (2B)-th plate 72 which are separated from
each other in the width direction Dw. Accordingly, the travel face
4 on the right side in the width direction Dw and the travel face 4
on the left side in the width direction Dw can be formed of
different members. Accordingly, an area between the travel faces 4
which are formed to be separated from each other in the width
direction Dw does not need to be formed integrally, and it is
possible to further reduce the manufacturing costs of the travel
path forming unit 50.
[0112] The (1A)-th plate 61 and the (1B)-th plate 71 are connected
to each other in a state in which the (1a1)-th inclined face 61b of
the (1A)-th plate 61 and the (1b2)-th inclined face 71c of the
(1B)-th plate 71 are opposed to each other. At the same time, the
(1A)-th plate 61 and the (1B)-th plate 71 are connected to each
other in a state in which the (1a2)-th inclined face 61c of the
(1A)-th plate 61 and the (1b1)-th inclined face 71b of the (1B)-th
plate 71 are opposed to each other. Accordingly, the boundary
between the (1A)-th plate 61 and the (1B)-th plate 71 can be
inclined with respect to the travel direction Dr. Similarly, the
(2A)-th plate 62 and the (2B)-th plate 72 are connected to each
other in a state in which the (2a1)-th inclined face 62b of the
(2A)-th plate 62 and the (2b2)-th inclined face 72c of the (2B)-th
plate 72 are opposed to each other. At the same time, the (2A)-th
plate 62 and the (2B)-th plate 72 are connected to each other in a
state in which the (2a2)-th inclined face 62c of the (2A)-th plate
62 and the (2b1)-th inclined face 72b of the (2B)-th plate 72 are
opposed to each other. Accordingly, the boundary between the
(2A)-th plate 62 and the (2B)-th plate 72 can be inclined with
respect to the travel direction Dr. That is, the joint between the
travel path forming units 50 can be inclined with respect to the
direction in which the travel wheels 120 enter each travel path
forming unit 50. Accordingly, it is possible to curb noise or
rattling when the vehicle 100 travels on the joint between the
neighboring travel path forming units 50.
[0113] The (1a1)-th inclined face 61b on the front side of the
(1A)-th plate 61 in the travel direction Dr and the (1b1)-th
inclined face 71b on the front side of the (1B)-th plate 71 in the
travel direction Dr are formed at different angles with respect to
the travel direction Dr. Similarly, the (1a2)-th inclined face 61c
on the rear side of the (1A)-th plate 61 in the travel direction Dr
and the (1b2)-th inclined face 71c on the rear side of the (1B)-th
plate 71 in the travel direction Dr are formed at different angles
with respect to the travel direction Dr. The (2a1)-th inclined face
62b on the front side of the (2A)-th plate 62 in the travel
direction Dr and the (2b1)-th inclined face 72b on the front side
of the (2B)-th plate 72 in the travel direction Dr are formed at
different angles with respect to the travel direction Dr.
Similarly, the (2a2)-th inclined face 62c on the rear side of the
(2A)-th plate 62 in the travel direction Dr and the (2b2)-th
inclined face 72c on the rear side of the (2B)-th plate 72 in the
travel direction Dr are formed at different angles with respect to
the travel direction Dr.
[0114] Accordingly, since the angles of the inclined face 51b (the
first inclined face) on the front side and the inclined face 51b
(the second inclined face) on the rear side in the travel direction
Dr are different from each other, conditions when the travel wheels
120 pass can be made to be irregular when the travel wheels 120
enter and leave the first travel path forming unit 60 and the
second travel path forming unit 70. Accordingly, it is possible to
further curb noise or rattling when the vehicle 100 travels on the
joint between the neighboring travel path forming units 50.
[0115] The first travel path forming unit 60 and the second travel
path forming unit 70 including the inclined faces 51b with
different angles with respect to the travel direction Dr on the
front side and the rear side in the travel direction Dr are
arranged to form the travel face 4. Accordingly, it is possible to
curb an increase in a gap between the neighboring travel path
forming units 50 and to form a curved travel path 5 such as a
curved section.
[0116] The travel path forming units 50 which are concrete blocks
are used. Accordingly, the unit travel faces 51a of the travel path
forming units 50 are formed of concrete. Accordingly, it is
possible to form a concrete travel face 4.
[0117] The travel path 5 is disposed directly on the ballast 3.
Accordingly, by disposing the ballast 3 between the road bed 2 and
the travel path 5, the position of the travel face 4 can be
adjusted by adding the ballast 3 as well as adjusting the travel
path 5 itself even when the road bed 2 has been distorted due to
ground subsidence or the like. Accordingly, it is possible to
further reduce maintenance costs for repairing distortion or the
like of the travel face 4.
[0118] In the track constructing method according to the first
embodiment, the positions of the guide rails 8 are adjusted by
fixing the guide rails 8 to the guide posts 53 after arranging a
plurality of first travel path forming units 60 and a plurality of
second travel path forming units 70 in the arrangement step S10.
Accordingly, only by adjusting the positions of the guide rails 8
relative to the road bed 2, the positions of the (1A)-th formation
faces 61a and the (2A)-th formation faces 62a or the (1B)-th
formation faces 71a and the (2B)-th formation faces 72a
constituting the travel face 4 relative to the road bed 2 can be
adjusted together. That is, it is possible to adjust the positions
of a plurality of unit travel faces 51a together without adjusting
the positions of a plurality of travel path forming units 50
including the unit travel faces 51a constituting the travel face 4
relative to the road bed 2. Accordingly, it is possible to form the
travel face 4 that extends smoothly in the travel direction Dr on
the road bed 2.
[0119] By lifting the (1A)-th plate 61, the (2A)-th plate 62, the
(1B)-th plate 71, and the (2B)-th plate 72 from the road bed 2
after the guide rail fixing step S21 of fixing the guide rails 8 to
the guide posts 53, it is not necessary to individually lift a
plurality of travel path forming units 50. Accordingly, it is
possible to simplify the steps for providing the ballast 3 between
a plurality of travel path forming units 50 and the road bed 2.
[0120] In the track constructing method according to this
embodiment, the first travel path forming units 60 and the second
travel path forming units 70 are continuously arranged before
fixing the guide rails 8 as in the first arrangement step S11 and
the second arrangement step S12, but the invention is not limited
to this sequence. In the track constructing method, for example,
the second travel path forming units 70 may be arranged and fixed
to the guide rails 8 after the first arrangement step S11 is
performed and then the guide rail fixing step S21 or the position
adjusting step S20 is performed to fix the guide rails 8 to the
first travel path forming units 60 and to adjust the positions
thereof.
[0121] The convex portion 521 and the concave portion 522 of the
positioning unit 52 in the first embodiment are not limited to a
shape in which they extend in the width direction Dw. The convex
portion 521 and the concave portion 522 may extend in the vertical
direction Dv and may be formed at the centers of the inclined faces
51b in the width direction Dw.
[0122] For example, as illustrated in FIGS. 12 and 13 as a modified
example, the convex portion 521 and the concave portion 522 of the
positioning unit 52 may be formed in contact with a face facing one
side in the vertical direction Dv of the first travel path forming
unit 60 and the second travel path forming unit 70 such that the
sectional shape thereof is an L shape.
[0123] Specifically, as illustrated in FIG. 12, a convex portion
521a in the modified example is formed in the (1a1)-th inclined
face 61b and the (1a2)-th inclined face 61c of the (1A)-th plate 61
and the (2a1)-th inclined face 62b and the (2a)-th inclined face
62c of the (2A)-th plate 62. The face facing the lower side in the
vertical direction of the convex portion 521a is formed integrally
with the face facing the lower side in the vertical direction of
the (1A)-th plate 61 or the (2A)-th plate 62. The face facing the
upper side in the vertical direction of the convex portion 521a
forms a stepped portion from the (1A)-th formation face 61a or the
(2A)-th formation face 62a.
[0124] As illustrated in FIG. 13, a concave portion 522a in the
modified example is formed in the (1b1)-th inclined face 71b and
the (1b2)-th inclined face 71c of the (1B)-th plate 71 and the
(2b1)-th inclined face 72b and the (2b2)-th inclined face 72c of
the (2B)-th plate 72. The face facing the upper side in the
vertical direction of the concave portion 522a is formed integrally
with the (1B)-th formation face 71a or the (2B)-th formation face
72a. The face facing the lower side in the vertical direction of
the concave portion 522a forms a stepped portion from the face
facing the lower side in the vertical direction of the (1B)-th
plate 71 or the (2B)-th plate 72. As a result, since the first
travel path forming unit 60 and the second travel path forming unit
70 are arranged in the travel direction Dr, the face facing the
lower side in the vertical direction of the concave portion 522a is
arranged to oppose the face facing the upper side in the vertical
direction of the convex portion 521a.
[0125] The convex portion 521 and the concave portion 522 are not
limited to the structure in which they are separately formed in the
first travel path forming unit 60 and the second travel path
forming unit 70. For example, in one travel path forming unit 50,
the convex portion 521 may be formed in the inclined face 51b on
the front side in the travel direction Dr and the concave portion
522 may be formed in the inclined face 51b on the rear side in the
travel direction Dr. In the first plate 511 and the second plate
512, the convex portion 521 and the concave portion 522 may be
formed at different positions in the travel direction Dr.
Second Embodiment
[0126] A track according to a second embodiment will be described
below with reference to FIG. 14.
[0127] In the second embodiment, the same elements as in the first
embodiment will be referenced by the same reference signs and
detailed description thereof will not be repeated. The track 1
according to the second embodiment is different from the track
according to the first embodiment in the shape of a second travel
path forming unit 700.
[0128] That is, in the second travel path forming unit 700 in the
track 1 according to the second embodiment, the length in the
travel direction Dr is larger than the length of the first travel
path forming unit 60 in the travel direction Dr. Specifically, in
the second travel path forming unit 700, a part Lb having the
largest length of the (1B)-th plate 710 in the travel direction Dr
is formed to be longer than a part La having the largest length in
the travel direction Dr of the (1A)-th plate 61 of the first travel
path forming unit 60. In the second travel path forming unit 700,
the parts Lb having the largest length in the travel direction Dr
of the (1B)-th plate 710 and the (2B)-th plate 720 are formed to
have the same length.
[0129] In the second travel path forming unit 700, the (1B)-th
plate 710 and the (2B)-th plate 720 are connected to each other by
a connection member 550. In the second travel path forming unit
700, the concave portion 522 is formed as the positioning unit 52
similarly to the first embodiment. The second travel path forming
unit 700 according to the second embodiment is not connected to the
support member 54 and the guide post 53 unlike the first
embodiment.
[0130] In the track 1 according to the second embodiment, it is
possible to decrease the number of travel path forming units 50
which are used in a straight section and to form the travel face 4
by increasing the distance in the travel direction Dr using the
second travel path forming unit 700. Accordingly, it is possible to
reduce manufacturing costs for laying the track 1. It is also
possible to reduce the number of travel path forming units 50 of
which the position should be adjusted at the time of maintenance.
Accordingly, it is possible to efficiently perform maintenance of
the travel face 4.
[0131] The (1A)-th plate 61 and the (2A)-th plate 62 of the first
travel path forming unit 60 according to the first embodiment and
the second embodiment are not limited to the trapezoidal shape. The
(1A)-th plate 61 and the (2A)-th plate 62 may include the inclined
face 51b. Accordingly, the (1A)-th plate 61 and the (2A)-th plate
62 may form a rhomboidal shape or a parallelogrammic shape.
Similarly, the (1B)-th plate 71 and the (2B)-th plate 72 of the
second travel path forming unit 70 are not limited to the
trapezoidal shape. The (1B)-th plate 71 and the (2B)-th plate 72
may include the inclined face 51b. Accordingly, the (1B)-th plate
71 and the (2B)-th plate 72 may form a rhomboidal shape or a
parallelogrammic shape.
[0132] The travel path 5 according to the first embodiment and the
second embodiment has a structure in which the first travel path
forming unit 60 and the second travel path forming unit 70 or 700
are alternately arranged in the travel direction, but is not
limited thereto. For example, the travel path 5 may include a
travel path forming unit with another shape between the first
travel path forming unit 60 and the second travel path forming unit
70 or 700. Specifically, as illustrated in FIG. 15, an adjustment
plate (a travel path forming unit) 80 including an inclined face
51b may be provided as a travel path forming unit between a certain
first travel path forming unit 60 and a second travel path forming
unit 70 in the first embodiment. In FIG. 15, the adjustment plate
80 has a parallelogrammic shape, but may have a rhomboidal shape or
a trapezoidal shape as long as it includes the inclined face
51b.
Third Embodiment
[0133] A track according to a third embodiment will be described
below with reference to FIGS. 16 and 17.
[0134] In the third embodiment, the same elements as in the first
embodiment and the second embodiment will be referenced by the same
reference signs and detailed description thereof will not be
repeated. The track 1 according to the third embodiment is
different from those in the first embodiment and the second
embodiment in that the travel face 4 is formed on an iron rail
42.
[0135] That is, as illustrated in FIG. 16, the track 1 according to
the third embodiment is different from that in the first embodiment
in the travel path forming unit. In the track 1 according to the
third embodiment, a travel face 4 is formed by a travel path 300
which is arranged on the road bed 2 with a crosstie 41 and an iron
rail 42 in addition to the ballast 3 interposed therebetween. That
is, the travel path 300 is disposed on the rail 42 of a ballast
track disposed on the road bed 2.
[0136] The crosstie 41 is embedded in the ballast 3. A plurality of
crossties 41 are arranged separated from each other in the travel
direction Dr over the total extension of the track 1.
[0137] The rail 42 is installed on the crossties 41. The rail 42
extends in the travel direction Dr over the total extension of the
track 1. In this embodiment, two rails 42 are arranged for each
travel face 4. The two rails 42 are arranged separated from each
other in the width direction Dw. That is, in this embodiment, total
four rails 42 are arranged by adding two rails to a pair of rails
42 which is provided as the ballast track.
[0138] The travel path 30 includes travel path forming units 31
which are arranged adjacent to each other in the travel direction
Dr of the vehicle 100. The travel path 30 also includes positioning
units 32 and guide posts 33.
[0139] The travel path forming units 31 are arranged on the road
bed 2 with the rails 42 interposed therebetween. Each travel path
forming unit 31 includes a unit travel face 31a that can partially
form the travel face 4. The unit travel face 31a is formed in the
travel path forming unit 31 such that it faces the upper side in
the vertical direction Dv when the travel path forming unit 31 is
disposed on the rails 42. The unit travel face 31a in the third
embodiment has a rectangular shape when viewed in the vertical
direction Dv. That is, the travel face 4 in the third embodiment is
formed by continuously arranging the unit travel faces 31a in the
travel direction Dr in a state in which a plurality of travel path
forming units 31 are arranged in parallel in the travel direction
Dr such that the unit travel faces 31a are provided on the rails
42. The travel path forming unit 31 in the third embodiment is a
plate-shaped member which is formed of a metal material such as a
steel plate having higher strength than that of concrete. Each
travel path forming unit 31 in the third embodiment includes a
first plate 311 with which only the travel wheel 120 on the right
side in the width direction Dw comes in contact and a second plate
312 with which only the travel wheel 120 on the left side in the
width direction Dw comes in contact.
[0140] The first plate 311 in the third embodiment includes a plate
body 311a and a plate fixing portion 311b.
[0141] The plate body 311a has a rectangular box shape so as to
cover the rails 42 from the upper side in the vertical direction
Dv.
[0142] The plate fixing portion 311b is detachably fixed to the
positioning unit 32 which will be described later using a bolt. The
plate fixing portion 311b is formed integrally with the plate body
311a. The plate fixing portion 311b protrudes outward in the width
direction Dw from an open end of the plate body 311a with respect
to the rails 42.
[0143] The second plate 312 in the third embodiment is formed in
the same shape as the first plate 311.
[0144] The positioning units 32 in the third embodiment fix the
relative position between the neighboring travel path forming unit
31 by detachably fixing the travel path forming unit 31 to the
crossties 41. The positioning units 32 in the third embodiment are
detachably fixed to the travel path forming units 31 using
fastening members such as bolts. Each positioning unit 32 includes
a positioning body 32a and a positioning body fixing portion
32b.
[0145] The positioning body 32a is fixed to the crosstie 41. The
positioning body 32a is disposed to be interposed between the
crosstie 41 and the rails 42. The positioning body 32a has a
rectangular box shape to cover the rails 42 from the lower side in
the vertical direction Dv.
[0146] The positioning body fixing portion 32b is detachably fixed
to the plate fixing portion 311b using a bolt. The positioning body
fixing portion 32b is formed integrally with the positioning body
32a. The positioning body fixing portion 32b protrudes outward in
the width direction Dw from an open end of the positioning body 32a
with respect to the rails 42. That is, the positioning unit 32 has
a shape which is symmetric in the vertical direction Dv with
respect to the travel path forming unit 31.
[0147] The guide post 33 in the third embodiment is fixed directly
to the crosstie 41 and extends in a direction crossing the unit
travel face 31a. The guide post 33 in the third embodiment has the
same structure as the guide post 33 in the first embodiment.
[0148] In a track constructing method of laying the track 1
according to the third embodiment, for example, rails 42 are
additionally laid on a general ballast track on which two rails 42
have been already laid. Specifically, in a step of performing
preparation in advance, additional rails 42 are arranged in the
width direction Dw of the rails 42 which have been already laid.
Accordingly, a set of rails 42 which are arranged close to each
other in the width direction Dw is arranged at positions separated
in the width direction Dw from each other on the crosstie 41.
Thereafter, the positioning unit 32 is arranged on every multiple
crossties 41. The positioning unit 32 is fixed to the crossties 41
in a state in which it is interposed between the rails 42 and the
crossties 41. Thereafter, in a position adjusting step, the slope
of the rails 42 with respect to the road bed 2 is adjusted.
[0149] After the slope of the rails 42 has been adjusted, a
plurality of travel path forming units 31 are arranged in the
travel direction Dr on the rails 42. By fixing the travel path
forming units 31 arranged on the rails 42 to the positioning units
32 using bolts, the adjacent travel path forming units 31 are
connected to each other by the positioning unit 32, and a plurality
of travel path forming units 31 are arranged in the travel
direction Dr.
[0150] With the track 1 according to the third embodiment, it is
possible to form the travel face 4 using the rails 42. That is, it
is possible to form the travel face 4 on the rails 42 of which the
slope with respect to the road bed 2 has been adjusted, for
example, using the ballast track on which the rails 42 have been
already formed. Accordingly, without adjusting the positions of a
plurality of travel path forming units 31 including the unit travel
face 31a relative to the road bed 2, it is possible to adjust the
positions of a plurality of unit travel faces 31a together.
Accordingly, it is possible to form the travel face 4 that extends
smoothly in the travel direction on the road bed 2.
[0151] In the track 1 according to the third embodiment, four rails
42 are used, but the invention is not limited to this structure.
For example, like a general ballast track, only two rails 42 have
only to be separated from each other in the width direction Dw. In
the case of this structure, the track 1 in which a guide rail type
railroad vehicle travels can be formed using a ballast track which
has been already laid.
[0152] The unit travel face 31a in the third embodiment may have a
trapezoidal shape similarly to the first embodiment or the second
embodiment. That is, the travel path forming units 31 in the third
embodiment are not limited to the structure in which an inclined
face 51b is not formed. For example, the travel path forming units
31 in the third embodiment may have an inclined face 51b, which is
inclined with respect to the travel direction Dr similarly to the
first embodiment, formed therein.
[0153] While embodiments of the invention have been described above
in detail with reference to the drawings, the elements in the
embodiments, the combinations thereof, and the like are only
examples and addition, omission, substitution, and other
modifications can be added thereto without departing from the gist
of the invention. The invention is not limited to the embodiments
and is defined by only the appended claims.
[0154] The travel path forming unit 31 in the invention is not
limited to the structure in which the first plate 311 and the
second plate 312 are separated in the width direction Dw from each
other. The travel path forming unit 31 has only to have the unit
travel face 31a formed therein. For example, the travel path
forming units 31 may form a shape in which blocks are continuous in
the width direction Dw and the travel faces 4 on both sides in the
width direction Dw may be formed by a single travel path forming
unit 31.
[0155] The positioning units 32 in the first embodiment and the
second embodiment are not limited to the structure in which the
positioning unit is formed integrally with the travel path forming
unit 31 like the convex portion 521 and the concave portion 522.
For example, in the first embodiment and the second embodiment, the
positioning unit 32 may be formed of a member independent from the
travel path forming unit 31 as in the third embodiment.
[0156] has been described, but the invention is not limited to the
example in which the travel path forming units 50 and 31 are used
to lay the track 1. For example, the travel path forming units 50
and 31 can also be used for a track maintenance method of repairing
the laid track 1 by replacing the travel path forming units 50 and
31. Specifically, in the track maintenance method, when ground
subsidence occurs in part of the road bed 2, only the travel path
forming units 50 and 31 including the unit travel faces
corresponding to an area of which the position is partially offset
with respect to the whole travel face 4 may be replaced. Here,
examples of the area of which the position is partially offset with
respect to the whole travel face 4 include a partial area of the
travel face 4 in which the position is offset with respect to the
road bed 2, a partial area of the travel face 4 on which the
position is offset with respect to the guide rails 8, and a partial
area of the travel face 4 in which the position is offset with
respect to the rails 42. Accordingly, it is possible to partially
repair the position of the travel face 4 relative to the road bed 2
by replacing only the travel path forming units 50 and 31
corresponding to a position at which ground subsidence has
occurred.
INDUSTRIAL APPLICABILITY
[0157] With the track, it is possible to form a travel path that
can facilitate maintenance and in which travel wheels can travel
directly by lining up a plurality of travel path forming units.
REFERENCE SIGNS LIST
[0158] 1 Track
[0159] 2 Road bed
[0160] 3 Ballast
[0161] 4 Travel face
[0162] 5, 300 Travel path
[0163] 50, 31 Travel path forming unit
[0164] 511, 311 First plate
[0165] 512, 312 Second plate
[0166] 51a, 31a Unit travel face
[0167] 51b Inclined face
[0168] 52, 32 Positioning unit
[0169] 521, 521a Convex portion
[0170] 522, 522a Concave portion
[0171] 53, 33 Guide post
[0172] 54 Support member
[0173] 55, 550 Connection member
[0174] 60 First travel path forming unit
[0175] 61 . . . (1A)-th plate
[0176] 61a . . . (1A)-th formation face
[0177] 61b . . . (1a1)-th inclined face
[0178] 61c . . . (1a2)-th inclined face
[0179] 62 . . . (2A)-th plate
[0180] 62a . . . (2A)-th formation face
[0181] 62b . . . (2a1)-th inclined face
[0182] 62c . . . (2a)-th inclined face
[0183] 70, 700 Second travel path forming unit
[0184] 71, 710 . . . (1B)-th plate
[0185] 71a, 710a . . . (1B)-th formation face
[0186] 71b, 710b . . . (1b1)-th inclined face
[0187] 71c, 710c . . . (1b2)-th inclined face
[0188] 72, 720 . . . (2B)-th plate
[0189] 72a, 720a . . . (2B)-th formation face
[0190] 72b, 720b . . . (2b1)-th inclined face
[0191] 72c, 720c . . . (2b2)-th inclined face
[0192] 8 Guide rail
[0193] 100 Vehicle
[0194] 110 Vehicle body
[0195] 120 Travel wheel
[0196] 130 Guide device
[0197] 131 Guide frame
[0198] 132 Guide wheel
[0199] Dr Travel direction
[0200] Dw Width direction
[0201] Dv Vertical direction
[0202] S10 Arrangement step
[0203] S11 First arrangement step
[0204] S12 Second arrangement step
[0205] S20 Position adjusting step
[0206] S21 Guide rail fixing step
[0207] S22 Travel path forming unit lifting step
[0208] 91 Jack-up member
[0209] S30 Travel path forming unit fixing step
[0210] 92 Fixing jig
[0211] 41 Crosstie
[0212] 42 Rail
[0213] 311a Plate body
[0214] 311b Plate fixing portion
[0215] 32a Positioning body
[0216] 32b Positioning body fixing portion
[0217] 80 Adjustment plate
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